Stereoselective Total Synthesis of Bioactive Styryllactones (+)-Goniofufurone, (+)7-epi-Goniofufurone, (+)-Goniopypyrone, (+)-Goniotriol, (+)-Altholactone, and (-)-Etharvensin† Kavirayani R. Prasad* and Shivajirao L. Gholap Department of Organic Chemistry, Indian Institute of Science, Bangalore 560012, India prasad@orgchem.iisc.ernet.in ReceiVed February 6, 2007
Stereoselective total synthesis of biologically active styryllactones 7-epi-goniofufurone, goniofufurone, goniopypyrone, goniotriol, altholactone, and etharvensin was achieved in high overall yields from a common intermediate derived from D-(-)-tartaric acid. It is based on the utility of a masked tetrol, comprising an alkene tether and four contiguous hydroxy groups. The pivotal reaction sequence involves hydroxy-directed lactonization via the oxidation of alkene, and subsequent elaboration to styryllactones. The masked tetrol was prepared by the extension of γ-phenyl-γ-hydroxy butyramide, readily obtained from the bis-dimethylamide of tartaric acid, employing a combination of selective Grignard additions and a stereoselective reduction.
Introduction Trees of genus Goniothalamus of the plant family Annonaceae in South East Asia have been known for a long time for their proven use in folk medicine. The extracts and leaves from these plants have traditionally been used as a remedy to treat rheumatism and edema, as an abortifacient, and as a mosquito †
Dedicated with warmth and respect to Professor S. V. Kessar on the occasion of his 75th birthday.
repellant. The research group of McLaughlin et al. isolated and characterized a series of styryllactones, possessing pesticidal, ratogenic, embryo toxic activity, and significant to marginal cytotoxic activity against human tumor cell lines.1 The structures and relative configurations of these compounds were determined (1) For a review on the cytotoxic activity and other bioactivity of styryllactones see: (a) Mereyala, H. B.; Joe, M. Curr. Med. Chem. AntiCancer Agents 2001, 1, 293. (b) Bla`zquez, M. A.; Bermejo, A.; ZafraPolo, M. C.; Cortes, D. Phytochem. Anal. 1999, 10, 161. 10.1021/jo0702342 CCC: $40.75 © 2008 American Chemical Society
2
J. Org. Chem. 2008, 73, 2-11
Published on Web 05/25/2007
StereoselectiVe Total Synthesis of BioactiVe Styryllactones CHART 1. Bioactive Styryllactones 1-8 from Goniothalamus Species
either by X-ray crystallography or by extensive NMR spectral analysis. The styryllactones can mainly be classified into two groups, related to the size of the lactone ring. Among the group comprising the five-membered lactone rings, 7-epi-goniofufurone 1 and goniofufurone 2 are moderately active, while goniopypyrone 3, goniotriol 4, and altholactone 5 comprising the six-membered lactone ring showed considerable anti-tumor activity. Because of their unique and intriguing structures and the broad spectrum of activity, these styryllactones have attracted the attention of several synthetic groups in recent years.2 Although, there has been a number of syntheses concerning the individual styryllactones, very few syntheses of these styryllactones from a common intermediate have been reported in the literature. Shing et al. employed D-glycero-D-gulo-heptanoγ-lactone as a chiral source for the synthesis of 1-5,3 while Tsubuki et al. utilized chiral lactonic aldehydes derived from D-isopropyldinedioxy glyceraldehyde.4 Mandelic acid was used as the chiral source in the synthesis of styryl lactones 1-4 by Surivet and Vatele.5 While the synthesis of these compounds reported by Shing et al. suffers from low overall yields (